Ultrasonic Milling is a metal removal process used to machine very hard materials such as ceramics or carbides. Ultrasonic milling is suited to process micron-size and nano-size materials such as alumina trihydrate, barium sulphate, calcium carbonate and metal oxides.

Ultrasonic Mold-Cleaning Systems are designed to clean large molds and tooling. It accommodates the displacement that large tools create and removes oils and greases from the cleaning solution to extend detergent life. These systems are suited for cleaning inserts, cores and components. The cleaning system is said to eliminate as much as 70 to 80 percent of the labor time otherwise involved in a mold tear down and rebuild, while also improving molding performance and eliminating the need for hazardous solvents and mold rework costs. Microscopic scrubbing action is said to remove out gassing residues, release agents and grime from intricate, hard-to-reach areas such as details, ejector-pin holes and vent channels without abrasives that can damage the molding surface.

Ultrasonic non-contact transmitter is a full-featured, ultrasonic non-contact transmitter that provides continuous measurement for liquid level, volume, or open-channel flow applications. Their measurements are not affected by changes in specific gravity, viscosity, or conductivity. The ultrasonic pulses are emitted from the transducer and the time required for the echo to reflect from the liquid surface and return to the transducer is measured. It is used in oil, acid, water and wastewater applications.

Ultrasonic Occupancy Sensor is comprised of a motion detector, electronic control component, controllable switch (relay) and power supply. It emits and receives high-frequency sound waves in the range of 25-40 kHz, well above the range of human hearing. These waves reflect off objects and room surfaces, and the sensor measures the frequency of the waves that return to the receiver. If there is motion within the space, the frequency of the reflected waves will shift slightly; the change is detected by the receiver and the sensor registers a positive occupancy signal. It can detect motion that is hidden from the sensor's view, provided that the space is enclosed with hard surfaces to reflect the waves back to the receiver. It is much more sensitive to movement directly toward or away from the sensor, compared to lateral movements. It works by broadcasting ultrasonic sound waves, analyzing the returning waves and detecting movement through Doppler shifts.